Metal ion activation and DNA recognition by the Deinococcus radiodurans manganese sensor DR2539

Metal ion activation and DNA recognition by the Deinococcus radiodurans manganese sensor DR2539

Citation:: Mota, C, Webster M, Saidi M, Kapp U, Zubieta C, Giachin G, Manso JA, de Sanctis D. 2024. Metal ion activation and DNA recognition by the Deinococcus radiodurans manganese sensor DR2539. bioRxiv. : Cold Spring Harbor Laboratory

Abstract:

The accumulation of manganese ions is crucial for scavenging reactive oxygen species (ROS) and protecting the proteome of Deinococcus radiodurans (Dr). However, metal homeostasis still needs to be tightly regulated to avoid toxicity. DR2539, a dimeric transcription regulator, plays a key role in Dr manganese homeostasis. Despite comprising three well-conserved domains: a DNA binding domain, a dimerization domain, and an ancillary domain, both the metal ion activation mechanism and the DNA recognition mechanism remain elusive. In this study, we present biophysical analyses and the structure of the dimerization and DNA binding domains of DR2539 in its holo form and in complex with the 21 bp pseudo-palindromic repeat of the dr1709 promotor region. These findings shed light into the activation and recognition mechanisms. The dimer presents eight manganese binding sites that induce structural conformations essential for DNA binding. The analysis of the protein-DNA interfaces elucidates the significance of Tyr59 and helix H3 sequence in the interaction with the DNA. Finally, the structure in solution as determined by small angle X-ray scattering experiments and supported by AlphaFold modelling provides a model illustrating the conformational changes induced upon metal binding.Competing Interest StatementThe authors have declared no competing interest.

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